REFERENCES
- Broms U, Pitkaniemi J, Backmand H, et al. (2014). Long-term consistency of diurnal-type preferences among men. Chronobiol Int. 31:182–8
- Ehret CF. (1974). The sense of time: Evidence for its molecular basis in the eukaryotic gene-action system. Adv Biol Med Phys. 15:47–77
- Erren TC, Gross JV, Kantermann T, Kuffer L. (2014). Chronobiology and competitive sports: Recent studies and future perspectives. Chronobiol Int. 31:746–7
- Erren TC, Morfeld P. (2014). Computing chronodisruption: How to avoid potential chronobiological errors in epidemiological studies of shift work and cancer. Chronobiol Int. 31:589–99
- Foster RG, Wulff K. (2005). The rhythm of rest and excess. Nat Rev Neurosci. 6:407–14
- Henst RH, Jaspers RT, Roden LC, Rae DE. (2015). A chronotype comparison of South African and Dutch marathon runners: The role of scheduled race start times and effects on performance. Chronobiol Int. 32:858–68
- Hill AB. (1965). The environment and disease: Association or causation? Proc R Soc Med. 58:295–300
- Horne JA, Ostberg O. (1976). A self-assessment questionnaire to determine morningness-eveningness in human circadian rhythms. Int J Chronobiol. 4:97–110
- Kunorozva L, Stephenson KJ, Rae DE, Roden LC. (2012). Chronotype and PERIOD3 variable number tandem repeat polymorphism in individual sports athletes. Chronobiol Int. 29:1004–10
- Laborde S, Guillen F, Dosseville F, Allen MS. (2015). Chronotype, sport participation, and positive personality-trait-like individual differences. Chronobiol Int. 32:942–51
- Lastella M, Roach GD, Hurem DC, Sargent C. (2010). Does chronotype affect elite athletes’ capacity to cope with the training demands of triathlon? Living in a 24/7 world: The impact of circadian disruption on sleep, work and health. Adelaide: Australasian Chronobiology Society. D. D. Sargent C, Roach GD, pp. 25–8
- Roenneberg T, Kuehnle T, Juda M, et al. (2007). Epidemiology of the human circadian clock. Sleep Med Rev. 11:429–38
- Roenneberg T, Wirz-Justice A, Merrow M. (2003). Life between clocks: Daily temporal patterns of human chronotypes. J Biol Rhythms. 18:80–90
- Rose G. (1985). Sick individuals and sick populations. Int J Epidemiol. 14:32–8
- Samuels C. (2008). Sleep, recovery, and performance: The new frontier in high-performance athletics. Neurol Clin. 26:169–80; ix–x
- Silva A, Queiroz SS, Winckler C, et al. (2012). Sleep quality evaluation, chronotype, sleepiness and anxiety of Paralympic Brazilian athletes: Beijing 2008 Paralympic Games. Br J Sports Med. 46:150–4
- Tassi P, Pins D. (1997). Diurnal rhythmicity for visual sensitivity in humans? Chronobiol Int. 14:35–48
- Toh KL, Jones CR, He Y, et al. (2001). An hPer2 phosphorylation site mutation in familial advanced sleep phase syndrome. Science. 291:1040–3
- Vitale JA, Roveda E, Montaruli A, et al. (2015). Chronotype influences activity circadian rhythm and sleep: Differences in sleep quality between weekdays and weekend. Chronobiol Int. 32:405–15
- Zani A, Rossi B, Borriello A, Mecacci L. (1984). Diurnal interindividual differences in the habitual activity pattern of top level athletes. J Sports Med Phys Fitness. 24:307–10